A demonstration of the effect of temperature on reaction rate - Journal

A demonstration of the effect of temperature on reaction rate (the authors reply). Journal of Chemical Education. Boring and McMillan. 1984 61 (8), p ...
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A Demonstration of the Effect of Temperature on Reactlon

Rate To the Editor: There appeared recently in THIS JOURNAL (I)a demonstration experiment for showing the effect of temperature on reaction rate. The experiment involves the evolution of gas bubbles from the Alka-Seltzer@'tablets in water. There are four difficulties with this experiment. 1) The Alka-SeltzeP tablet may not be conveniently available ev-

ervwhere.

2) TI^ rate of evolution of gas bubbles cannot be seen from a distance. 3) Sometimes it may not he possible todistinguish between the dif-

ferent rates of evolution of gas.

4) This process does not highlight a typical chemical reaction.

A reaction that is well known and that can he performed conveniently in any lahoratory is that of permanganate with oxalic acid in acid medium. Mix 100 ml of 4 . 0 1 N oxalic acid and 100 ml of -1.0 M HzS04 in a big conical flask. Add 25 ml of 4 . 0 1 N KMn04 to this mixture and immediately divide this in three roughly equal portions in three separate 250-ml conical flasks. Put one of them in cold water (-5°C) and one in hot water (-50°C). The third one is left as such a t room temperature (28%). The times for disappearance of the permanganate color are 15-20 min for cold water, 1-1'14 min for hot water and 2-2% min for the third one a t 2 8 T . The experiment not only shows the effect of temperature on reaction rates but also gives a comparative idea of the rates in different ranaes of temperature. Any react& with one colored reactant would show this. Decomoosition ( 2 ) of the violet-colored Ce(1V) oxidation of n-phenylanthranilic acid would do well. Literature Clted (1)Boring. W. C., and McMiUan, E.T., J. CHeM. EDuc.,60,414,1983.

(2) Mishrs, S. K.,Sharms,P. D.,and Gupta, Y.K.,J. CHEM.EDUC.,53,327,1976.

Y. K. Gupta S. K. Mishra

Unlversiiy of Rajasthan Jaipur, India To the Editor: Gunta and Mishra have ~ o i n t e dout what thev feel are '.diffihies" with our demonstration that utilizes AlkaSeltze+ tahlets and water to show sal'elv and simdv. the effect of temperature on reaction rate. ~ u p i and a ~ i s h r suggest a that a reaction based on permanganate oxidation of oxalate in acidic medium he used instead. In response to their remarks concerning our demonstration, the following comments seem appropriate.

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Journal of Chemical Education

The first difficulty with our demonstration that is pointed out by Gupta and Mishra concerns the availability of AlkaSeltzer@'. Miles Laboratories manufactures and distributes Alka-SeltzeP. A representative of the company indicated Alka-SeltzeP is readily available in most countries of the free world. The company is planning to expand its distribution in countries outside the continental United States. Therefore, if the availability of Alka-Seltzee is a prohlem now, it should be less of a prohlem in the future. One other point should he made here. Chemical s u ~ ~ l v companies do-not sell chemicals indiscriminately to an;&; wishing.. to ~. u r c h a s ethem for demonstrations or other uses. In many cases, teachers have a lot of trouble getting chemicals they need. On the other hand, anyone can purchase Alka~ e l t z e ea t a store or through the mail in the free world. Therefore, Alka-Seltzer" may he more accessible than the chemicals needed (sulfuric acid, oxalic acid, and potassium permanganate) to perform the demonstration that Gupta and Mishra sueeest he used instead of ours. Gupta &I Mishra indicate that other problems with our demonstration are associated with seeingand distinguishing between the different rates of the evolutiun of a gas from a distance. The demonstration usine Alka-Seltzefl and water has been performed in a large auditorium with adequate liehtine in front of two hundred students without difficulties or complaints. In demonstrations like this, the ratesof reaction of the Alka-Seltzel-Dtablets were markedlv different in two volumes of water which had a temperature difference of 20°C. Our demonstration uses 400 mL and theirs uses 125 mL. Therefore, ours is probably more visible from a distance than theirs. Another remark was made by Gupta and Mishra that the process (Alka-Seltzer" reaction) does not highlight a typical reaction. This statement is ambiguous due to the uncertainties in the meanings of "highlight" and "a typical reaction." Since these uncertainties exist, a comment by us concerning their remark would seem pointless. Finally, these points should be made. The reaction between Alka-Seltrrfl and water that is used in our demonstration is safe and rapid. These two features are very important to a teacher and students. A teacher does not have to handle toxic chemicals or eo t o anv trouble settine UD our demonstration. Students arenot bored in the time riqiired for a reaction to take dace. Also. students are familiar with the reaction hetween ~ l k a - ~ e l t zand e e water due to its widespread advertisement. Such is not the case with the reaction between oxalate and permanganate.

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Wayne C. Borlng Ernest McMillan Stephen F. Austin State University Nacogdoches, TX 75962